cellulosic ethanol synthesis from wheat straw and gallants soldier usingindigenous basic mineral salt hydrolytic regimes

Abstract

Production and use of ethanol for fuel can reduce air pollution, and reduce global warming.This research emphasizes on the Studies of indigenous basic salt hydrolysis of two non-woody agriculturallignocelluloses; wheat straw and gallants soldierhas been determined. The hydrolysis study was done using basic salts; ‘magadi’, ‘Lebek’ and ‘Para,’ salts. Trace metallic ionic composition, pH, percent concentration of CO32-, and HCO3- and the degree of hydrolysis data are presented for the three salts found in Kenya and the complete randomized block design was used in sampling. Salts were analyzed for metallic ions; K, Na, Ca, Mg, Co, Fe, Mn, Cu, Pb, Cd, Zn, anions CO32-, HCO3-, and pH values and structures analysis was done. The following analytical instruments were used; AAS, Flame Photometer, XRF, FTIR, UFLC, and a pH meter. Titrimetric method was employed forCO32- and HCO3-determinations. All were of recorded pH greater than 9.98 hence were alkaline. The FTIR charts of all the salts indicated presence of bicarbonate group. The total carbonate levels recorded were; magadi (47.2%wt/wt), para (113.9%wt/wt) and Lebek (11.8% wt/wt). The main metallic ion concentrations recorded for the salts were; Magadi had Na+ (71.52 mg/g), para had Ca2+ (52.56 mg/g), while Lebek had Ca2+(166.09 mg/g).Degree of salt hydrolysis of the lignocellulose samples was greater than 20.94±0.01% with the highest being 44.99±0.03% with neat salts. There was a clear indication that bicarbonate group play an important role in lignocellulose hydrolysis. Higher bicarbonate levels showedhigher percentage of hydrolysis. Para salt was found to be a better ligno-cellulosic hydrolyser in oxidative media than the other salts tested. Wheat straw para salt hydrolysis recorded total sugars of 30.12% wt/wt and ethanol of 64.07% vol./wt. Gallants soldier para salt recorded slightly lower amounts, with sugars of 18.09%wt/wt and ethanol of 49.74%vol./wt.